Powder Metallurgy & Sintered Parts worked example
Cost Per Sintered Part at 92% good-part yield factor: a worked example
This scenario runs the cost per sintered part calculation on the strong side: 92% good-part yield factor, with every other input held at its documented default. Use it when cost per sintered part in powder metallurgy and sintered parts is being put through a powder metallurgy and sintered parts weighted-cost review.
The inputs for this scenario
- Parts in the production lot: 100 units (unchanged)
- Conversion cost per part: 45 $ / unit (unchanged)
- Good-part yield factor: 92 % (raised for this scenario; the documented default is 80)
- Fixed tooling & setup cost: 250 $ (unchanged)
Working through the calculation
- Applying the documented formula (Cost Per Sintered Part cost = quantity × rate × capture factor + fixed cost) to the inputs above produces each figure below.
- At this operating point the engine returns 4,390 $ for weighted cost, the number this scenario is built around.
- At this operating point the engine returns 43.9 $ / piece for per piece value.
- At this operating point the engine returns 4,140 $ for captured value.
- At this operating point the engine returns 250 $ for fixed adjustment.
How this compares with the baseline
- Against the tool's baseline example, where good-part yield factor sits at 80% and the headline result is 3,850 $, this scenario comes in 14.03% above the baseline at 4,390 $.
- Use it when quoting a PM part, comparing lot-size scenarios, or checking whether a yield improvement justifies a tooling or process change. Treat this as a target state: the delta against the baseline quantifies what the improvement is worth before you commit to chasing it.
Results at a glance
- Weighted cost: 4,390 $ (headline result)
- Per piece value: 43.9 $ / piece
- Captured value: 4,140 $
- Fixed adjustment: 250 $
Run it with your numbers
- Every input above is editable in the live Cost Per Sintered Part calculator, which recalculates instantly and can be shared with the inputs intact.
Last reviewed 2026-05-12.